RU2248916C1 - Fire-fighting helicopter - Google Patents

Abstract

FIELD: aviation; fire helicopters.

SUBSTANCE: proposed helicopter has fire-fighting device which is provided with additional nozzle mounted on end of extensible boom. Nozzle is connected with air supply source. Arranged inside additional nozzle is fire-hose barrel and at least one vertical fire-hose barrel directed downward and mounted inside swept rotor area.

EFFECT: enhanced efficiency due to increased length of extinguishant jet.

6 cl, 3 dwg

Description

The present invention relates to aviation, namely, to the designs of helicopters used for fire fighting.

Known helicopter for fighting fires, including the fuselage, the power plant, consisting of an engine and a propeller system, a fire extinguishing device, consisting of a rotary fire barrel, consisting of a barrel and a sleeve installed outside the area of the throwing area of the screw, associated with it the supply line of the working fluid, and systems for supplying working fluids, including from an external source of the working fluid (see US Patent No. 4090567, cl. A 62 C 27/30, 1976).

In a known design, a container for the working fluid is used, which is connected with a system for supplying the working fluid to the fire barrel, for example, in the form of a pump.

A disadvantage of the known design, operating on the principle of pouring liquid, is the low efficiency of the use of extinguishing liquid due to the low aiming efficiency of the spill.

The closest in technical essence to the proposed solution is a helicopter for fighting fires, including a fuselage with external attachment points, a power plant consisting of an engine and a screw system, a fire extinguishing device consisting of a mounting frame, an external rod, a rotary fire barrel, consisting of a nozzle and a sleeve installed at its end, a supply line for the working fluid to the fire barrel, and a supply system for working fluids, including from an external source of the working fluid (see the Kamov JSC leaflet ”“ Helicopter for extinguishing fires ”, 2003).

In a known design, containers are used for components of the working fluid of the fire extinguishing system located inside the fuselage or on the frame and connected to the system for filling them from an external source.

The volume of containers can be from 2952-5000 liters.

The disadvantages of the known design are:

- the relatively small range of the extinguishing jet and its insufficient speed when extinguishing a fire, which in turn can make it difficult to extinguish fires with high radiation intensity;

- the impossibility of a helicopter approaching a close distance in the city to the fire site due to the presence of power wires, antenna cables, etc .;

- the inability to extinguish an extended fire, when the helicopter should hover directly above the fire. In this case, it is necessary to protect the helicopter from fire damage from below (intense radiation, heat fluxes of heated air, which can lead to a helicopter accident due to a change in the lift of the propeller).

The problem solved by the invention is to increase the efficiency of the use of a fire helicopter by increasing the range of the extinguishing jet and its speed when extinguishing a fire.

The technical result in the present invention is achieved by the creation of a helicopter for fighting fires, including a fuselage with external attachment points, a power unit consisting of an engine and a screw system, a fire extinguishing device, consisting of a mounting frame, an external rod, a rotary fire barrel placed on it, a supply line the working fluid to the barrel and the supply system of the working fluid, including from an external source of the working fluid, and the mounting frame and the remote rod are mounted on the fuselage, in which, according to Retenu, extinguishing device is provided with one further nozzle mounted at the end remote rod and having a supply of secondary air, the inside of the additional nozzle arranged pivot shaft, and at least one vertical fire barrel directed downwards and mounted inside the swept area of the propeller.

The proposed helicopter for fire fighting can be used to extinguish peat bog, because its design provides an increase in the speed of the extinguishing jet, thereby increasing the quenching properties of the jet, namely, allows a deeper penetration of the working fluid inside the burning layer.

The invention is also characterized in that the axis of rotation of the additional nozzle and the rotary barrel coincide.

This allows the most efficient use of the energy of the additional nozzle at all angles of rotation of the barrel.

The implementation of an additional nozzle ejector reduces energy consumption to increase the range and speed of the extinguishing jet.

The invention is also characterized by the fact that the air supply source of the additional nozzle can be made autonomous, for example, in the form of a turbo-gas generator, or at least two intakes located on the sides of the fuselage, the receiving openings of which are directed upwards and are located symmetrically relative to the center of gravity of the helicopter.

Performing the source autonomously eliminates the selection of the required power for this operation from the helicopter's power plant, and, therefore, eliminates the negative impact on flight performance, and the presence of air intakes allows the use of the energy of the jet created by the helicopter propeller to operate the additional nozzle.

The coaxial arrangement of the screws allows you to get a more uniform downward flow (reducing the swirling flow), which increases the efficiency of the fire extinguishing jet.

The proposed design of the helicopter can be used in any industries where fine dispersion is necessary, for example, spraying pesticides, disinfection of the territory, etc.

The proposed helicopter can also be used to extinguish fires in high-rise buildings and objects covered by elements that impede approaching the object at close range, for example, by electric wires, as well as objects with a high burning rate, approaching to which at close range violates the conditions of safe operation (possibility of fire helicopter).

The proposed helicopter design can be used to extinguish forest fires by laying protective, wide strips of fire-extinguishing fluid sprayed from a helicopter.

Patent studies showed that technical solutions with the indicated set of essential features in similar helicopter designs for fighting fires are not known, i.e. the proposed solution meets the criterion of “novelty”.

In the analysis of well-known analogues and prototype, no proposal was found with a combination of essential features set forth in the claims, which implies that for specialists involved in helicopter engineering and fire fighting, it clearly does not follow from the prior art and, therefore, meets the criteria of the invention “inventive step” "

We believe that the information set forth in the application materials is sufficient for the practical implementation of the invention.

The invention is illustrated by the following description of the design and drawings, where

Figure 1 showed a side view of a helicopter for fighting fire;

Figure 2 shows a front view of a helicopter for fighting fire;

Figure 3 shows an enlarged location “A”.

The helicopter for fighting fires includes a fuselage 1 with external attachment points 2, a power unit consisting of an engine 3 and a screw system 4, and a system for supplying working fluids, including from an external source of the working fluid, and a fire extinguishing device.

Any design of screws may be used in the proposed design. However, the best performance of the helicopter was achieved with a coaxial design by reducing the length of the extension rod, and therefore, reducing the weight of the structure.

The fire extinguishing device consists of a mounting frame 5, an extension rod 6, a rotary fire barrel 7 located on it, consisting of a nozzle and a sleeve, a supply line 8 for supplying a working fluid to the barrel, an additional nozzle 9 mounted on an extension rod and having an air supply source 10 (on Fig. (not shown) of at least one vertical fire barrel 11, directed downward and installed inside the propeller's swept area.

The number of vertical fire trunks depends on the size of the helicopter, the fire intensity permissible for it and the availability of its working fluid.

To increase the range or maintain the speed of the extinguishing jet at a greater range, inside the additional nozzle 9, which can be made ejector, placed fire rotary barrel 7. The axis of rotation of the additional nozzle 9 and the rotary barrel match. Moreover, the nozzle 9 and the barrel 7 relative to each other can be installed either coaxially or with some eccentricity.

With this mutual arrangement of the nozzle and the barrel, the flow of air or another working fluid supplied to the additional nozzle surrounds the fire extinguishing jet of the working fluid (for example, a liquid or a two-phase working fluid consisting of drops of liquid and gas), and the braking of the fire extinguishing jet will be significantly delayed, at least until the speed of the external surrounding stream is significantly reduced.

For a vertical fire barrel, the air stream from the helicopter propeller will serve as the external surrounding flow of the additional nozzle, i.e. either the range of the extinguishing jet or the speed at the same range will be increased.

The use of several vertical shafts allows you to additionally create a protective shirt from fire extinguishing jets and, thus, significantly increase the scale (diameter) of the fire extinguishing jet, which can be at least equal to the overall dimensions of the helicopter in plan.

In this case, the helicopter will be able to hover over the fire at a higher altitude and be protected from the temperature influence of the fire, which means that in this case not only the extinguishing efficiency, but also the safety of the fire helicopter will increase.

In the proposed design, the mounting frame 5 and the remote rod 6 can be fixed on the fuselage either separately or in the form of a module (one end of the remote rod is mounted on the mounting frame, which is attached to the fuselage).

The air supply source of the additional nozzle 10 can be made autonomous, for example, in the form of a turbo-gas generator installed on board the helicopter.

As air for supplying to an additional nozzle, a jet from a helicopter propeller can be used. In this case, the air supply source of the additional nozzle is made in the form of at least two intakes 12 located on the sides of the fuselage, the receiving holes 13 of which are directed upwards and are located symmetrically with respect to the center of gravity of the helicopter.

The supply system of the working fluid consists of containers for components of the working fluid 14 installed either inside the fuselage 1 or on the frame 2, the supply of the working fluid in the supply line 8 of the working fluid, for example a pump (not shown), and the working feed bodies from an external source 15.

The work of the proposed helicopter for fire fighting is carried out in stages.

First, prepare the helicopter to fly on the ground. Tanks 14 of the supply system of the working fluid are filled with components of the working fluid (water, foaming components, etc.).

In the case of using an additional nozzle of a turbo-gas generator as an air supply source, an additional fuel tank (not shown) is installed on board the helicopter for autonomous operation of the source.

Then the helicopter takes off and flies to the place of fire. Choose the most advantageous position to start the fire fighting, and the operator includes a helicopter fire fighting system; and the working fluid and the external air flow along the highways are fed to the rotary fire barrel and an additional nozzle. Simultaneous work with them and a vertical fire barrel is also possible.

By deflecting the rotary barrel 7 together with the additional nozzle 9 in the vertical plane and controlling the helicopter in the horizontal plane, the crew achieves the exact entry of the extinguishing jet into the fire.

After full use of the working fluid stocks, the helicopter either returns to the base, or refuel from an external source of the working fluid (lakes, rivers, fire engine, etc.), including during the extinguishing process.

A prototype of the invention was manufactured and tested.

Tests have shown that the external surrounding flow can extend to a length of about 100 diameters. If you choose the output diameter of the additional nozzle, approximately 5-10 times the initial diameter of the extinguishing jet, the jet will be protected at a distance of about 500-1000 calibers of its diameter.

Thus, if the usual spread of a fire extinguishing jet can be 500-700 calibers of its diameter, then the presence of a protective “shirt” in the form of an external air flow will increase its range by at least 1.5-2 times or have the same speed 1.5-2 times more.

In existing fire barrels, the size of the output section is from 30 to 70 mm, so the size of the output section of the additional nozzle will be from 150 to 700 mm, which can be implemented in the proposed helicopter design.

Claims (6)

1. A helicopter for fighting fires, including a fuselage with external attachment points, a power plant consisting of an engine and a propeller system, a fire extinguishing device consisting of a mounting frame, an external rod, a rotary fire barrel placed on it, consisting of a nozzle and a sleeve, a main the supply of the working fluid to the barrel, and the supply system of the working fluid, including from an external source of the working fluid, and the mounting frame and the remote rod are mounted on the fuselage, characterized in that the fire extinguishing device of the helicopter is equipped with of an additional nozzle mounted on the remote end of the rod and connected with its air supply source, wherein the supplementary nozzle arranged inside the rotary shaft, and at least one vertical fire barrel directed downwards and installed inside the rotor swept area. 2. The helicopter for fighting fires according to claim 1, characterized in that the axis of rotation of the additional nozzle and the rotary barrel coincide. 3. A helicopter for fighting fires according to any one of claims 1, 2, characterized in that the additional nozzle is made ejector. 4. The helicopter for fighting fires according to claim 1, characterized in that the air supply source of the additional nozzle is autonomous, for example, in the form of a turbo-gas generator. 5. The fire fighting helicopter according to claim 1, characterized in that the air source of the additional nozzle is made in the form of at least two intakes located on the sides of the fuselage, the receiving holes of which are directed upwards and are located symmetrically relative to the center of gravity of the helicopter. 6. A helicopter for fighting fires according to claim 1, characterized in that the propeller system is made in accordance with a coaxial design.

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